Uptake and Speciation of Inorganic Arsenic with Cellulose Fibre Coated with Yttrium Hydroxide Layer as a Novel Green Sorbent

A novel adsorbent was developed by coating yttrium hydroxide precipitate layer on cellulose fibre. This material takes up ca. 98% of 5 μg·L 1 As(Ⅲ) and As(V) at low pH (pH〈7), while a favorable selectivity for As(V) was achieved within pH 11--12. In practice, a mini-column packed with Y(OH)3 precipi...

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Published inChinese journal of chemistry Vol. 30; no. 9; pp. 2225 - 2231
Main Author 安明日 张晓星 杨婷 陈明丽 王建华
Format Journal Article
LanguageEnglish
Published Weinheim WILEY-VCH Verlag 01.09.2012
WILEY‐VCH Verlag
Wiley Subscription Services, Inc
Subjects
Arsenic
Cellulose
hydride generation atomic fluorescence spectrometry
NaOH溶液
Organic solvents
precipitate layer coated cellulose
Sodium hydroxide
Speciation
Spectrometry
Water analysis
Water sampling
Yttrium
yttrium hydroxide
低pH值
形态
无机砷
氢化物发生
氧化钇
纤维素纤维
脱硫剂
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Summary:A novel adsorbent was developed by coating yttrium hydroxide precipitate layer on cellulose fibre. This material takes up ca. 98% of 5 μg·L 1 As(Ⅲ) and As(V) at low pH (pH〈7), while a favorable selectivity for As(V) was achieved within pH 11--12. In practice, a mini-column packed with Y(OH)3 precipitate layer coated cellulose fibre particles was incorporated into a sequential injection system for selective uptake of arsenate at pH 11.5. The retained arsenate was afterwards recovered with 50μL of 0.8 mol.L l NaOH solution as eluent, followed by hydride generation in a reaction medium of 2.0 mol·L-1 HCl and 1.0% NaBH4 solution (W/V, in 0.5% NaOH) after pre-reduction of arsenate to arsenite by KI-ascorbic acid (5%, W/V), with detection by atomic fluorescence spec- trometry. Total inorganic arsenic was quantitatively taken up at pH 6.0 by following the same procedure and arsenic speciation was performed by difference. With a sample volume of 1.0 mL, an enrichment factor of 16.4 was derived with a detection limit of 17 ng.L-1 within a linear range of 0.05--2.0μg.L ]. A relative standard deviation (RSD) of 2.6% (0.5 μg·L-1, n= 11) was achieved. The procedure was validated by analyzing arsenic in a certified refer- ence material GBW 09101 (human hair), and speciation process requires no organic solvents, thus Y(OH)3 coated of inorganic arsenic in natural water samples. The entire cellulose fibre provides a green adsorbent.
Bibliography:yttrium hydroxide, precipitate layer coated cellulose, arsenic, speciation, hydride generation atomicfluorescence spectrometry
31-1547/O6
A novel adsorbent was developed by coating yttrium hydroxide precipitate layer on cellulose fibre. This material takes up ca. 98% of 5 μg·L 1 As(Ⅲ) and As(V) at low pH (pH〈7), while a favorable selectivity for As(V) was achieved within pH 11--12. In practice, a mini-column packed with Y(OH)3 precipitate layer coated cellulose fibre particles was incorporated into a sequential injection system for selective uptake of arsenate at pH 11.5. The retained arsenate was afterwards recovered with 50μL of 0.8 mol.L l NaOH solution as eluent, followed by hydride generation in a reaction medium of 2.0 mol·L-1 HCl and 1.0% NaBH4 solution (W/V, in 0.5% NaOH) after pre-reduction of arsenate to arsenite by KI-ascorbic acid (5%, W/V), with detection by atomic fluorescence spec- trometry. Total inorganic arsenic was quantitatively taken up at pH 6.0 by following the same procedure and arsenic speciation was performed by difference. With a sample volume of 1.0 mL, an enrichment factor of 16.4 was derived with a detection limit of 17 ng.L-1 within a linear range of 0.05--2.0μg.L ]. A relative standard deviation (RSD) of 2.6% (0.5 μg·L-1, n= 11) was achieved. The procedure was validated by analyzing arsenic in a certified refer- ence material GBW 09101 (human hair), and speciation process requires no organic solvents, thus Y(OH)3 coated of inorganic arsenic in natural water samples. The entire cellulose fibre provides a green adsorbent.
An, Myong Zhang, Xiaoxing Yang, Ting Chen, Mingli Wang, Jianhu( Research Center for Analytical Sciences, Northeastern University, Box 332, Shenyang, Liaoning 110819, China)
ark:/67375/WNG-0FKQ0P9C-2
the Fundamental Research Funds for the Central Universities - No. N110605001, N100305003, N110705002 and N110805001
the National Natural Science Foundation of China - No. 21005011, 21075013 and 21235001
the SRFDP program - No. 20100042120027
ArticleID:CJOC201200580
istex:55D8E7DD332BBF579D325DCF37FF0A12AF2DDB82
ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 14
ISSN:1001-604X
1614-7065
DOI:10.1002/cjoc.201200580